Risco BWare RK515DTGL Manual

K-Band DT Grade 2
Model: RK515DTGL
E N G L I S H
The BWare DT detector is the ultimate motion detector for professional
installations, incorporating Anti-Cloak™ Technologie (ACT™) and includes
built-in end-of-line (EOL) resistors to simplify installation.
The detector employs K-Band microwave providing reduced wall
penetration.

Installation / Maintenance

Mounting - The BWare DT can be mounted either on a flat surface or on a
wall corner (corner mounting).
1. Remove detector's front cover using a suitable tool (as described in
Figure 1).
2. Using a suitable tool, open the following knockouts on the detector's
base (see Figure 2).
3. To select the correct vertical adjustment position for wide angle lens,
use the scale on the bottom right hand side of the PCB cover as follows:
Mounting height and scale position based on room size:
Mounting Height L - LONG S - SHORT
2.1m-2.7m (6'11"-8'10") 15m (50') 6m (20')
4. Set jumpers (see Jumper Setting section).
Note: Reset the detector after each change made to the settings.
5. Install the front cover back to its place (in a reverse sequence of the
removal).
6. Perform a Walk test (see Walk Test section below).
Terminal Wiring (see Figure 5)
Terminal Description
- 12 + 12VDC Input
ALARM N.C. Relay
TAMPER N.C. Tamper switch
LED LED operation remote control
When an "Activation Signal"** is applied to the LED input
terminal, all LEDs will be disabled.
LEDs are enabled if nothing is connected (unless LED
jumper is OFF) or 0V/12V is applied (according to the LED
Input Jumper position, 12V or 0V).
**Activation Signal-
If 12VDC is applied, and the LED Input Jumper is on 12V position
(Default position)
- Or -
0V is applied and LED Input Jumper is on 0V position
Jumper Settings
Jumper Function
SW1-1: LED Used to determine the operation of the detector's LEDs
ON: LEDs are enabled, allowing LED control via the LED input
(Default) terminal
OFF: LEDs are disabled
SW1-2: ACT Used to determine if ACT mode is enabled or disabled
ACT Enabled
ON
Important: Do not use ACT™ mode if you are expecting that
there will be moving objects outside the required protected area,
a corridor for example.
OFF
ACT Disabled.
(Default)
SW1-3: Green Line
The BWare DT includes a Green Line feature that follows environmental
guidelines. This feature disables the MW channel when the alarm system is
"Unset", thus eliminating surplus MW emission while the premises is occupied.
Green Line feature is enabled: To deactivate the MW module
ON
during "UNSET", the LEDs must also be remotely disabled by
the LED terminal.
Note: When 'Green Line' is on (Microwave off), the detector will
still activate (PIR only)
OFF
Green Line feature in disabled: MW is constantly in use.
(Default)
SW1-4: Self Not applicable in this version.
Test
J1 - Alarm EOL Jumpers J1 and J2 allow the selection of Tamper and Alarm
J2 - Tamper EOL resistance (1K, 2.2K, 4.7K, 5.6K, 6.8K) according to the
control panel (see Figure 4).
Follow the terminal block connection diagram in Figure 4
when connecting the detector to a Double End Of Line
(DEOL) Zone.
J4 - LED
Used to determine the polarity of the external LED input.
INPUT
(Default)
See Terminal Wiring section, See Terminal Wiring section,
LED Terminal LED Terminal

Walk Test

1. Two minutes after applying power (warm-up period), walk test the
Detector over the entire protected area to verify proper operation of the
unit (see Figure 7).
2. The K-Band MW range must be adjusted using the potentiometer located
on the PCB. It is important to set the potentiometer to the lowest possible
setting that will still provide enough coverage for the inner boundary
protected area (see Figure 5).

LEDs Display

LED State Description
Yellow On PIR detection
Flashing Trouble in PIR channel
Green On MW detection
Flashing Trouble in MW channel
Blue On ALARM
All LEDs Flashing At power-up, the LEDs will flash consecutively until the
consecutively end of the warm-up period (2-3 minutes).
U.S. Patent Number:
This product is protected under Patent No. US 7,126,476 B2.
Other patents pending.
CE Compliance Section:
Risco Ltd. hereby declares that this equipment is in compliance with the essential
requirement and other relevant provisions of Directive 1999/5/EC.
For the EC Declaration of Conformity please refer to our website: www.riscogroup.com
EN 50131-1
EN 50131-2-4
Grade 2
Environmental Class II
Contains FCC ID UXS-IPM165F
BWare RK515DTGL FCC Compliance Section:
FCC Part 15 Note:
This equipment has been tested and found to comply with the limits for a Class B digital
device, pursuant to Part 15 of the FCC rules. These limits are designed to provide
reasonable protection against harmful interference in a residential installation. This
equipment generates, uses and can radiate radio frequency energy and, if not installed
and used in accordance with the instructions, may cause harmful interference to radio
communications.
However, there is no guarantee that interference will not occur in a particular installation.
If this equipment does cause harmful interference to radio or television reception, which
can be determined by turning the equipment off and on, the user is encouraged to try to
correct the interference by one or more of the following measures:
Reorient or relocate the receiving antenna.
Increase the separation between the equipment and receiver.
Connect the equipment to an outlet on a circuit different from that to which the
receiver is connected.
Consult the dealer or an experienced radio/TV technician.
FCC Warning:
The manufacturer is not responsible for any radio or TV interference caused by
unauthorized modifications to this equipment. Such modifications could void the
user's authority to operate the equipment.

Technical Specification

Electrical
Current consumption 16mA at 12VDC (typical)
41mA at 12VDC (max.)
Voltage requirements 9 -16VDC***
Alarm contacts 24VDC, 0.1A
Tamper contacts 24VDC, 0.1A
Environmental
RF immunity According to EN50130-4
Operating temperature -10ºC to 55ºC (14ºF to 131ºF)
Storage temperature -20ºC to 60ºC (-4ºF to 140ºF)
Optical
Filtering White Light Protection
Physical
Size 127.6 x 64.2 x 46.6 mm (5 x 2.5 x 1.84 in.)
Weight 120 gr. (4.2 oz.)
*** Power to be supplied by 5A max. power source using safety approved
wires, with a min Gauge of 20AWG.
ITALIANO
Il rivelatore BWare DT è un rivelatore di movimento che integra le tecnologie
più avanzate per le installazioni professionali. Questo rivelatore include
quella Anti-Cloak™ (ACT™) ed ha le resistenze di fine linea integrate nel
circuito per semplificarne al massino l'installazione.
Il rivelatore BWare DT utilizza la microonda in banda K la quale consente
una penetrazione ridotta attraverso i muri.
Installazione / Manutenzione
Installazione - Il rivelatore BWare DT può essere installato sia su di una
superficie piana che ad angolo.
1. Rimuovere il coperchio del rivelatore utilizzando un attrezzo appropriato
(come descritto nella Figura 1).
2. Utilizzando uno strumento appropriato aprire i fori a sfondare, di seguito
elencati, della base del contenitore come illustrato in Figura 2.
3. Per selezionare la posizione corretta della scheda elettronica con la lente
grandangolo montata, usare i riferimenti ( LONG / SHORT) situati nella
parte inferiore destra della scheda elettronica seguendo le indicazioni
della tabella di seguito illustrata:
Altezza di installazione e regolazione scheda elettronica in funzione
dell'areadi copertura:
Altezza di installazione L - LONG S - SHORT
2.1m-2.7m 15m 6m
4. Predisporre i ponticelli e i microinterruttori (Vedere la sezione relativa).
Nota: Ad ogni modifica delle predisposizioni/regolazioni, effettuare sempre
un reset del rivelatore rimuovendo e applicando tensione.
5. Rimontare il coperchio frontale e stringere la vite di blocco coperchio.
6. Effettuare una prova di copertura (Sezione Prova di movimento vedere
in basso).
Cablaggio Morsettiera (vedere Figura 5)
Morsetto Descrizione
- 12 + Ingresso di alimentazione 12V
ALARM Relé N.C.
TAMPER Interruttore N.C.
LED Controllo remoto dei LED e funzione GREEN LINE (con
microinterruttore SW1-3 in posizione ON)
Quando viene applicato un "Segnale di Attivazione"** al
morsetto LED, tutti i LED vengono disabilitati e, se il
microinterruttore GREEN LINE è in ON, la sezione
microonda viene disabilitata.
I LED sono abilitati se al morsetto LED non è collegato
niente (a meno che il ponticello LED sia estratto).
**Per Segnale di attivazione si intende quanto segue-
- Viene applicata una tensione 12 Vcc e il ponticello LED Input è nella
posizione 12V (posizione di default)
- Viene applicato un riferimento di alimentazione 0V e il ponticello LED
Input è nella posizione 0V
Predisposizione microinterruttori e ponticelli
Microint./Pontic. Funzione
SW1-1: LED Usato per abilitare o disabilitare il funzionamento dei LED.
ON I LED sono abilitati ed è possibile anche controllarli via
(Default) comando remoto tramite l'ingresso LED.
OFF I LED sono disabilitati. Non è possibile alcun controllo remoto.
SW1-2: ACT Usato per abilitare o disabilitare la funzione ACT.
.
ON ACT abilitato
OFF
ACT disabilitato.
(Default)
SW1-3: Green Line
BWare DT include la funzione Green Line che evita emissioni radio superflue
nell'ambiente. Questa funzione disabilita il canale a microonda (MW) quando
il sistema di sicurezza è disinserito.
La funzione Green Line è abilitata: Per disabilitare la sezione
microonda (MW) a sistema DISINSERITO va applicato un
ON
comando di attivazione al morsetto LED (0V o 12V in funzione
della polarità configurata tramite il ponticello LED/SET INPUT).
Anche i LED verranno in questo caso disabilitati. La sezione
microonda viene disabilitata in questo modo solo se al morsetto
SET non viene applicata alcuna tensione.
Nota: Quando la funzione Green Line è attiva (Microonda
spenta), il rivelatore si attiva usando la sola sezione ad
infrarossi (PIR).
OFF La funzione Green Line è disabilitata. La sezione a
(Default) microonda (MW) è sempre accesa.
SW1-4: Self Non applicabile in questa versione.
Test
I ponticelli J1 e J2 permettono la selezione dei valori resistivi
J1 - Alarm EOL
da assegnare ai circuiti di Tamper e di Allarme (1K, 2.2K,
J2 - Tamper EOL
4.7K, 5.6K, 6.8K) in funzione della centrale d'allarme
Ponticelli Per
utilizzata (vedere la Figura 4 in basso).
resistenze EOL
Seguire lo schema di collegamento dei morsetti illustrato in
Figura 4 quando si vuole collegare il sensore ad una centrale
d'allarme usando il doppio bilanciamento resistivo (DEOL).

RISCO Group Limited Warranty

RISCO Group and its subsidiaries and affiliates ("Seller") warrants its products to be free
from defects in materials and workmanship under normal use for 24 months from the date
of production. Because Seller does not install or connect the product and because the
product may be used in conjunction with products not manufactured by the Seller, Seller
cannot guarantee the performance of the security system which uses this product. Seller's
obligation and liability under this warranty is expressly limited to repairing and replacing, at
Seller's option, within a reasonable time after the date of delivery, any product not meeting
the specifications. Seller makes no other warranty, expressed or implied, and makes no
warranty of merchantability or of fitness for any particular purpose.
In no case shall seller be liable for any consequential or incidental damages for breach of
this or any other warranty, expressed or implied, or upon any other basis of liability
whatsoever.
Seller's obligation under this warranty shall not include any transportation charges or costs
of installation or any liability for direct, indirect, or consequential damages or delay.
Seller does not represent that its product may not be compromised or circumvented; that
the product will prevent any personal injury or property loss by burglary, robbery, fire or
otherwise; or that the product will in all cases provide adequate warning or protection.
Seller, in no event shall be liable for any direct or indirect damages or any other losses
occurred due to any type of tampering, whether intentional or unintentional such as
masking, painting or spraying on the lenses, mirrors or any other part of the detector.
Buyer understands that a properly installed and maintained alarm may only reduce the risk
of burglary, robbery or fire without warning, but is not insurance or a guaranty that such
event will not occur or that there will be no personal injury or property loss as a result
thereof.
Consequently seller shall have no liability for any personal injury, property damage or loss
based on a claim that the product fails to give warning. However, if seller is held liable,
whether directly or indirectly, for any loss or damage arising under this limited warranty or
otherwise, regardless of cause or origin, seller's maximum liability shall not exceed the
purchase price of the product, which shall be complete and exclusive remedy against
seller.
No employee or representative of Seller is authorized to change this warranty in any way
or grant any other warranty.
WARNING: This product should be tested at least once a week.
CAUTION: risk of explosion if battery is replaced by an incorrect type.
Dispose of used batteries according to local regulations.
© RISCO Group 01/2012
Predisposizione microinterruttori e ponticelli
Microint./Pontic. Funzione
J4- LED Usato per impostare la polarità dei comandi di attivazione
per gli ingressi LED.
(Default)
Posizionato sul lato 12V richiede come Posizionato su 0V richiede come
comando di attivazione una tensione comando di attivazione un riferimento
positiva. Fare riferimento alla sezione negativo di alimentazione 0V. Fare
relativa il Cablaggio Morsettiera, riferimento alla sezione relativa il
morsetto LED. Cablaggio Morsettiera, morsetto LED.
Prova di movimento (Walk Test)
1. Due o tre minuti dopo aver alimentato il rivelatore (inizializzazione)
effettuare la prova di copertura dell'area da proteggere verificando la
risposta del rivelatore tramite l'accensione dei LED (vedere Figura 7).
2. La portata della microonda va regolata tramite l'apposito potenziometro
situato sulla scheda elettronica. Regolare il potenziometro della
microonda al minimo possibile riferito all'area da proteggere
(vedere Figura 5).
LED Stato Descrizione
LED Stato Descrizione
Giallo Illuminato Rilevazione del canale PIR
Lampeggiante Anomalia del canale PIR
Verde Illuminato Rilevazione del canale MW
Lampeggiante Anomalia del canale MW
Blu Illuminato ALLARME
Tutti i LED Lampeggianti All'alimentazione tutti i LED lampeggiano in
consecutivamente sequenza fino alla fine del periodo di
inizializzazione (2-3 minuti).
Specifiche Tecniche
Elettriche
Assorbimento di corrente 16mA a 12V− (Nominale)
41mA a 12V− (Massimo)
Alimentazione richiesta da 9V− a 16V−
Contatti di allarme 24V− 0.1A
Contatti Tamper 24V− 0.1A
Ambientali
Immunità RF Conforme alle norme EN50130-4
Temp. funzionamento da -10ºC a 55ºC
Temp. stoccaggio da -20ºC a 60ºC
Ottica
Filtro Protezione contro le luci bianche
Fisiche
Dimensioni 127.6 mm x 64.2 mm x 46.6 mm
Peso 120 gr.
FRANÇAIS
Le détecteur BWare DT est le dernier détecteur de mouvements pour
les installations professionnelles, et intègre les technologie
Anti-Camouflage (ACT™) ainsi que des résistances de fin de ligne
(EOL) pour simplifier l'installation.
Le détecteur utilise un module Hyper Fréquence en bande K, qui
permet une réduction de la pénétration à travers les murs.
Installation
Montage - l'BWare DT peut être installé soit sur une surface plane soit
en coin (gauche ou droit).
1. Retirer le détecteur de couvercle frontal a l'aide d'un outil adequat
(décrit son la Figure 1).
2. A l'aide d'un outil adequat, ouvrez les pastilles pré-percées
correspon dantes sur la báse du d tecteur (cf.Figure 2).
3. Pour définir le bon réglage vertical, positionnez l'appareil en
LENTILLE GRAND ANGLE.
Servez-vous de l'échelle figurant sur le côté inférieur droit de la carte
PCB de couvercle (cf. Figure 7) comme suit :
Hauteur de montage et position selon la taille de la pièce :
Hauteur de montage L - LONG C - COURT (SHORT)
2.1m-2.7m (6'11"-8'10") 15m (50') 6m (20')
4. Réglez les cavaliers (cf. § Réglage des cavaliers).
Il est conseillé de réinitialiser le détecteur après chaque
Remarque:
modification apportée au réglage.
5. Replacez le couvercle frontal (en inversant pour cela l'ordre des
étapes de la procédure de retrait).
6. Exécutez un test de passage (cf. §Test de passage ci-dessous).
Câblage des Terminaux (cf. Figure 5)
Terminal Description
- 12 + Entrée 12VCC
ALARM Relais N.F., 24VCC, 0,1A
TAMPER Relais N.F., 24VCC, 0,1A
LED Contrôle à distance des indicateurs LED
Lorsqu'un "Signal d'Activation"** est appliqué à l'entrée
LED du bloc des terminaux ou bornes de connexion, les
indicateurs LED se désactivent (cf. aussi l'entrée Test
automatique dans le tableau consacré au Réglagedes
cavaliers).
Les voyants LED sont activés si rien n'est relié (sauf si le
cavalier LED est éteint (OFF).
**Signal d'Activation-
Si une tension de 12VCC est appliquée et que le Cavalier d'entrée LED
est en position 12V (Défaut de position)
-Ou-
Si la Terre (GND) est reliée, le Cavalier d'entrée LED est en position 0V.
RISCO Group Contacting Info
RISCO Group is committed to customer
service and product support. You can contact
us through our website (www.riscogroup.com)
or at the following telephone and fax numbers:
UK Tel: 44-(0)-161-655-5500
support-uk@riscogroup.com
ITALY Tel: +39-02-66590054
support-it@riscogroup.com
SPAIN Tel: +34-91-490-2133
support-es@riscogroup.com
FRANCE Tel: +33-164-73-28-50
support-fr@riscogroup.com
BELGIUM Tel: +32-2522-7622
support-be@riscogroup.com
U.S.A Tel: +1-631-719-4400
support-usa@riscogroup.com
BRAZIL Tel: +55-11-3661-8767
support-br@riscogroup.com
CHINA (Shanghai)
Tel: +86-21-52-39-0066
support-cn@riscogroup.com
CHINA (Shenzhen)
Tel: +86-755-82789285
support-cn@riscogroup.com
POLAND Tel: +48-22-500-28-40
support-pl@riscogroup.com
ISRAEL Tel: +972-3-963-7777
support@riscogroup.com
5IN1749
Réglage des cavaliers
Cavalier Fonction
SW1-1: LED Définit le fonctionnement des indicateurs LED du détecteur.
L'activation des indicateurs LED dépend du paramétrage du
Marche (ON)
contrôle à distance de leur fonctionnement (cf. § Câblage des
(Défaut)
Terminaux, borne de connexion LED).
Arrêt (OFF) Les indicateurs LED sont désactivés.
SW1-2: ACT Définit si le mode ACT est activé ou non
ACT activé.
Marche (ON)
Important ! N'utilisez pas le mode ACT™ dans une zone en
dehors de laquelle le passage d'objets en mouvement vous
paraît logique et attendu, un couloir par exemple.
Arrêt (OFF)
ACT désactivé.
(Défaut)
SW1-3: Green Line
Le BWare DT intègre la fonction Green Line, qui suit les recommandations
environnementales. Cette fonction désactive le canal hyper fréquence quand le
système d'alarme est désarmé, pour éliminer le surplus d'émissions HF quand
les locaux sont occupés.
La fonction Green Line est activée : Pour désactiver le module
Marche (ON)
HF pendant le désarmement, les LEDs doivent aussi être
désactivées par le terminal de connexion LED.
Note : Quand le Green Line est activé (HF désactivé), le
détecteur sera toujours actif (IRP seul).
Arrêt (OFF)
Green Line désactivé (OFF): le canal HF est constamment activé.
(Défaut)
SW1-4: Test Non applicable dans cette version.
automatique
Les cavaliers J1 et J2 permettent de sélectionner les
J1 - Alarm EOL
résistances EOL (fin de ligne) d'Autoprotection, Alarme et
J2 - Tamper EOL
FAULT (1K, 2,2K, 4,7K, 5,6K, 6 et 8K) en fonction
de la centrale (cf. Figure 4 ci-dessous).
Suivez les indications du diagramme de connexion du bloc
des terminaux de la Figure 4 pour relier le détecteur à une
zone EOL Double (DEOL).
J4 - Entrée
Détermine la polarité de l'entrée externe LED.
LED
(Défaut)
Cf. § Câblage de Terminal, borne de Cf. § Câblage de Terminal, borne de
connexion LED (Mise en service). connexion LED (Mise en service).
Test de passage
1. Deux minutes après avoir réalisé la mise sous tension (séquence
d'échauffement), effectuez un test de passage pour vérifier l'efficacité
du détecteur sur la totalité de la zone à protéger.
2. Assurez-vous d'avoir bien réinstallé le couvercle frontal avant de mettre
le détecteur sous tension (cf. Figure 7).
3. Le potentiomètre situé sur la carte PCB permet de régler la portée de
détection hyperfréquence. Il est important de régler le potentiomètre
sur le niveau le plus bas possible qui fournira cependant une couverture
suffisante sur la totalité de la zone à protéger (cf. Figure 5).
Affichage LED
LED Position Signification
Jaune Allumée (ON) Détection IRP
Clignotante Panne de canal IRP
Verte Allumée (ON) Détection HF (hyperfréquence)
Clignotante Panne de canal HF
Bleu Allumée (ON) Indique une ALARME
Toutes Clignotante Lors de la mise sous tension, les diodes LED
diodes LED l'une après clignotent de manière ininterrompue, l'une après
l'autre l'autre, jusqu'à la fin de la séquence
d'échauffement (2 à 3 minutes).
Spécifications techniques
Electriques
Consommation électrique 14.8 mA à 12VCC (en utilisation typique)
39.5 mA à 12VCC (max. avec tous les
voyants LED allumés)
Tension requise 9 -16VCC
Contacts d'alarme 24VCC, 0,1A
Temps minimal de changement 2.2 seconds
d'état:
Contacts d'autoprotection 24VCC, 0,1A
Etat ouvert: plus que 10 8
Rétsistance de la boucle de
Détection: Etat fermé: moins que 1 ohm
Ondulations résiduelles maximales 0.25 créte à créte
admissibles:
Environnementales
Immunité RF Selon EN50130-4
Température de fonctionnement De -20ºC à 55ºC (-4ºF à 131ºF)
Température de stockage De -20ºC à 60ºC (-4ºF à 140ºF)
Indice de protection: IP 31/IK 02
Taille du càble à utiliser: Fil de diamétre au moins 0.5 mm pour une
longueur ne dépassant pas 300 métres
Optiques
Filtrage Protection anti-lumière blanche
Physiques
Dimensions 127.6 x 64.2 x 46.6 mm (5 x2.5 x 1.84 in.)
Poids 120g